Faculty of Electrical Engineering, University of Belgrade

Milan Tadic, Assistant Professor

Position:

Assistant Professor

Address:

Faculty of Electrical Engineering
University of Belgrade
PO Box 3554

Belgrade 11120 Serbia
Yugoslavia

E-mail:

tadic@kiklop.etf.bg.ac.yu

Room:

104

Phone:

+381 - 11 - 3370 163

Fax:

+381 - 11 - 324 86 81

Shortened CV for M. Tadic

Milan Tadic received BS, MS, and PhD degree in 1989, 1992, and 1995, respectively, all from Faculty of Electrical Engineering, University of Belgrade (FEEUB). Since September 1996 he has been with the Department of Microelectronics and Engineering Physics, FEEUB, as an Assistant Professor. In 1996 he was affiliated with Center for Quantum Devices, Department of Electrical and Computer Engineering, Northwestern University, Evanston, IL, as a Research Fellow.

Summary of current and past research:

Electronic structure, optical, and transport properties of quantum semiconductor microstructures:

• Multiband effective-mass theory;
• Self-consistent electronic structure calculation;
• Strained heterostructures;
• Finite elements calculations;
• Pseudopotential theory: layer and supercell methods;
• Orientational superlattices and structures exhibiting ordering;
• Theory of intersubband and interband light absorption;
• Excitonic absorption;
• Optical properties of quantum wires and quantum dots;
• Nonlinear optical properties;
• Quantum interference effects in optical processes;
• Electron-phonon scattering: dielectric continuum model;
• Wave packet propagation;
• Resonant tunneling structures: effective-mass and Wigner functions models.

Quantum electronic devices:

• Quantum well infrared photodetectors (QWIP's);
• Intersubband (quantum cascade) lasers (QCL's);
• Quantum well modulators;
• Intraband and interband resonant tunneling diodes (RTD's);
• Transport in low-dimensional structures.

He has published 40 research papers.

Selected publications

Refereed journals

M. Tadic and Z. Ikonic
The multiband effective-mass model of the electronic structure and intersubband absorption in p-type-doped twinning superlattices
Journal of Physics: Condensed Matter 11, 6891-6909 (1999).

S. Tomic, V. Milanovic, M. Tadic, and Z. Ikonic
Gain optimization in intersubband quantum well lasers by inverse spectral theory
Solid State Communications (to be published).

M. Tadic and Z. Ikonic
Multiband envelope function model of twinning boundaries and superlattices: Electronic structure and infrared optical properties
Solid State Communications 110, 397-402 (1999).

M. Tadic and Z. Ikonic
Size effects on intersubband absorption in p-doped twinning superlattices
Physica E 4, 220-227 (1999).

M. Tadic
Semiconductor nanostructures: Electronic and optical properties (in Serbian)
Zaduzbina Andrejevic, ISSN 0354-7671, (1999).

M. Tadic, Z. Ikonic, and V. Milanovic
The self-consistent electronic structure of rectangular free-standing quantum wires: Fourier expansion approach
Superlattices and Microstructures 23, 369-379 (1998).

Z. Ikonic and M. Tadic
The electron wave packet propagation in ZnS/ZnSe based effective-mass quantum well structure: Application of the Chebishev method and fast Hanckel transform.
Superlattices and Microstructures 19, 291-300 (1996).

M. Tadic, Z. Ikonic, and V. Milanovic
Electron-wave-function calculation in the continuous part of the spectrum: The case of slowly varying potential asymptotics
Physical Review E 53, 6523-6529 (1996).

M. Tadic and Z. Ikonic
Influence of mole fraction on normal incidence bound-free absorption in p-doped InGaAs/GaAs strained quantum wells
Applied Physics Letters 68, 994-996 (1996).

M. Tadic and Z. Ikonic
Bound-free intersubband absorption in p-type doped semiconductor quantum wells
Physical Review B 52, 8266-8275 (1995).

Z. Ikonic, V. Milanovic, and M. Tadic
Intersubband optical transition matrix elements for hole states in semiconductor quantum wells
Journal of Physics: Condensed Matter 7, 7045-7052 (1995).

M. Tadic and Z. Ikonic
Self-consistent electronic-structure calculation of rectangular modulation-doped GaAs/GaAlAs quantum wires
Physical Review B 50, 7680-7688 (1994).

M. Tadic and Z. Ikonic
Self-consistent electronic-structure calculation of InP/InGaAs effective-mass quantum wells: The influence of a continuous spectrum
Physical Review B 47, 10415-10422 (1993).

Refereed Conferences

M. Tadic and Z. Ikonic
The electronic structure and intersubband absorption in p-doped twinning superlattices
Photonics West '99, SPIE Conference on Photodetectors: Materials and Devices IV, San Jose, California, USA, January 1999, SPIE Vol. 3629, 443-452, 1999.

M. Tadic and Z. Ikonic
Quantum efficiency of [111] oriented p-doped quantum well infrared photodetectors
CAS '98-International Semiconductor Conference, Sinaia, Romania, October 1998, Proceedings, Vol. 2, 527-530, 1998..

M. Tadic, S. Slivken, C. Jelen, and M. Razeghi
In-plane electron dynamics and hot electron effects in a quantum cascade laser
MIEL '97-International Conference on Microelectronics, Nis, Yugoslavia, September 1997, Proceedings, Vol. 1, 319-322, 1997.

M. Tadic, C. Jelen, S. Slivken, and M. Razeghi
Photoresponse of InGaAsP-based p-doped quantum well infrared photodetectors
MIEL '97-International Conference on Microelectronics, Nis, Yugoslavia, September 1997, Proceedings, Vol. 1, 315-318, 1997.

Teaching

Undergraduate courses

Quantum electronic devices, Microelectronics, Semiconductor quantum microstructures.

Graduate courses

Quantum optics, Mesoscopic physics, Optoelectronic sensors.

Hobbies and interests

• Scrabble (English)
• Skywatching